Conifers and non-native tree species shift trophic niches of generalist arthropod predators in Central European beech forests.

Benjamin Wildermuth, Riko Fardiansah, Dragan Matevski, Jing-Zhong Lu, Peter Kriegel, Stefan Scheu, Andreas Schuldt
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引用次数: 4

Abstract

Background: Functional diversity is vital for forest ecosystem resilience in times of climate-induced forest diebacks. Admixing drought resistant non-native Douglas fir, as a partial replacement of climate-sensitive Norway spruce, to native beech forests in Europe appears promising for forest management, but possible consequences for associated biota and ecosystem functioning are poorly understood. To better link forest management and functional diversity of associated biota, we investigated the trophic niches (∆13C, ∆15N) of epigeic generalist predators (spiders and ground beetles) in mixed and pure stands of European beech, Norway spruce and non-native Douglas fir in north-west Germany. We assessed the multidimensional niche structure of arthropod predator communities using community-based isotopic metrics.

Results: Whilst arthropod ∆13C differed most between beech (high ∆13C) and coniferous stands (low ∆13C), ∆15N was lowest in non-native Douglas fir. Tree mixtures mitigated these effects. Further, conifers increased isotopic ranges and isotopic richness, which is linked to higher canopy openness and herb complexity. Isotopic divergence of ground beetles decreased with Douglas fir presence, and isotopic evenness of spiders in Douglas fir stands was lower in loamy sites with higher precipitation than in sandy, drier sites.

Conclusions: We conclude that tree species and particularly non-native trees alter the trophic niche structure of generalist arthropod predators. Resource use and feeding niche breadth in non-native Douglas fir and native spruce differed significantly from native beech, with more decomposer-fueled and narrower feeding niches in beech stands (∆13C, isotopic ranges and richness). Arthropod predators in non-native Douglas fir, however, had shorter (∆15N) and simplified (isotopic divergence) food chains compared to native forest stands; especially under beneficial abiotic conditions (isotopic evenness). These findings indicate potential adverse effects of Douglas fir on functional diversity of generalist arthropod predators. As tree mixtures mitigated differences between beech and conifers, mixed stands including (non-native) conifers constitute a promising compromise between economic and conservational interests.

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中欧山毛榉林中针叶树和非本地树种改变了一般节肢动物捕食者的营养生态位。
背景:在气候引起的森林枯死时期,功能多样性对森林生态系统的恢复能力至关重要。在欧洲,将抗旱的非本地道格拉斯冷杉(作为气候敏感的挪威云杉的部分替代品)掺和到本地山毛榉林中,似乎对森林管理很有希望,但对相关生物群和生态系统功能的可能后果知之甚少。为了更好地将森林管理与相关生物群的功能多样性联系起来,我们调查了德国西北部欧洲山毛榉、挪威云杉和外来道格拉斯冷杉混交林和纯林分中蜘蛛和地甲虫的营养生态位(∆13C,∆15N)。我们利用基于社区的同位素指标评估了节肢动物捕食者群落的多维生态位结构。结果:虽然节肢动物的∆13C在山毛榉(高∆13C)和针叶林(低∆13C)之间差异最大,但在非本地花旗松中∆15N最低。混合树种减轻了这些影响。此外,针叶树增加了同位素范围和丰富度,这与更高的冠层开度和草本复杂性有关。花旗松的存在降低了地面甲虫的同位素分化,花旗松林内蜘蛛的同位素均匀性在降水较多的壤土样地比在干燥的沙地样地要低。结论:树种,特别是外来树种改变了多栖节肢动物捕食者的营养生态位结构。非本地道格拉斯冷杉和本地云杉的资源利用和取食生态位宽度与本地山毛榉存在显著差异,山毛榉林分的分解物燃料更多,取食生态位更窄(∆13C,同位素范围和丰富度)。然而,与本土森林林分相比,非本土道格拉斯冷杉的节肢动物捕食者具有更短(∆15N)和更简化(同位素分化)的食物链;特别是在有益的非生物条件下(同位素均匀性)。这些结果表明,花旗松对广能型节肢动物捕食者的功能多样性有潜在的不利影响。由于树木混合缓解了山毛榉和针叶树之间的差异,包括(非本地)针叶树在内的混交林构成了经济和保护利益之间的一个有希望的妥协。
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